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  • Now that I can post links, this is where I found the dump1090 command line parameters. http://www.satsignal.eu/raspberry-pi...tml#parameters

    The source for the above link ws found here http://planeplotter.pbworks.com/w/pa...95023/Dump1090. You need to look down the page to the "Known Issues" paragraph.
    T-KCLT3 - Raspberry Pi3 Jessie, 8 element collinear indoor antenna

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    • Your Franklin is nicely built.

      Did the integral dump1090 of FR24 feeder accept --gain <db> command directly from SSH window?
      In my case it did not. If yes, can you please post the full command?
      I used following two commands, but these did not work:
      (1) pi@raspberrypi:~$ sudo /usr/lib/fr24/ ./dump1090 --gain 32.8
      (2) pi@raspberrypi:~$ sudo fr24feed --gain 32.8

      Finally I entered the argument --gain <db> in settings page http://<IP of Pi>:8754/settings.html and it worked.

      Comment


      • Yes, the gain command worked just fine thanks. Like you I have been unable to make any Linux command line gain changes. They work fine from the Settings page of the RPi webpage http://<ip address of my rpi>:8754/settings.html. I have mirrored your text in the interests of clarity. You probably saw my earlier post of a list of Dump1090 commands. These seems to do something when entered from the Settings page. --aggressive increases CPU load on an RPi2 to about 45-50% and scarcely at all on an RPi3. I saw no increase in range using this command switch.

        My Franklin is your design with 138mm elements. I used 8AWG (2.26mm dia, Home Depot or Lowes grounding wire) and soldered the U bends. I used my grindstone to reduce the thickness of the copper wire by about 50% so that I could use a single right angle bend on each U bend wire. This made soldering easy. I just clamped the U bend in my vise, bent the wire so they pushed against each other and used a small propane torch to heat it up. It works but only give me about 85nmi with the ProStick gain at 50. When I get my LNAs I shall shorten the feeder and put the first LAN co-located with the antenna.

        Once I have my LAN working in the attic (the CAT5 is up there now) and all the electrics and electronics is neatly inside the NEMA steel box my insurance company insist on I will be able to run KCLT3 with 2 foot feeder in place of my current 21 ft RG6 feeder. Then it will be LNA and musical antenna time again. Hehe.

        Thanks again for your help. This thread is a mine of information -- some of it useful
        Last edited by rederikus; 2017-02-18, 19:59.
        T-KCLT3 - Raspberry Pi3 Jessie, 8 element collinear indoor antenna

        Comment


        • Originally posted by rederikus View Post
          Thank you Sir. I shall set aside my worries of mismatched connectors. In truth I actually knew all that but, I did not know that I knew it. I learned it back in the 1960s when I was an university. I am now 71 so the emotional attachment remains (impedance mismatched are bad, bad, bad) but the math had leeched away over the decades.
          I am glad to meet a seasoned University Graduate in Electrical Engineering.


          Originally posted by rederikus View Post
          I am just about to move my RPis up to the attic. The plan is to use CAT5 cable for the long cable run (21ft, 7 meters) instead of RG6. Just about to drill the hole and climb the ladder into the attic. Once I have all that stable and a couple of days of statistics down I will look again at which antenna I am going to use. I built a Franklin the other day but my LNAs are scattered in the snail mail cloud so I shall have to wait before testing. More news later.
          [ATTACH=CONFIG]8448[/ATTACH]
          After trying so many wire co-linear antennas, all of which performed less than or equal to a 1/4 wavelength ground plane antenna (Spider & Cantenna), I have come to conclusion that for begginers, the most suitable and easy DIY antennas are Spider & Cantenna.

          Below is photo of some of my failed wire collinears which I found in my spare & scraps drawer. There were lot more, but have ended up in trash.


          ALL THESES FAILED!

          Comment


          • Hi abcd567,

            With my set up,I have my antenne, 3metres above the roof,. Connect to 5 metres of Low loss Co-axial(Expensive) to the Reciever (In the Attic).
            Then from the Reciever connected to the power supply using a Dlink,. To my Router downstairs,.. which saves all the drilling and laying of cables.

            The catch is,... That both Sockets must be on the same circuit...
            (F-EDLE1)delcomp-DEL-David Tks(My friend Mike, all three of them)

            URL: http://banner.flightdiary.net/EDLM
            1090SJ(Ae) /(6m. Ecoflex10) / SBS 3 /-FR24 Box/ Power-line Connection (Ethernet)

            Comment


            • @adsb567 I have not failed. I've just found 10,000 ways that won't work. Thomas Edison. What you and your research has shown is what does not work as you thought and you have identified at least two ways that do work.

              I have read through all 265 pages of this thread and I'm trying to take your best working efforts and apply them myself.

              The problem is that the only reference antenna I have is the little whip thing that came with my first USB stick receiver. I make a new antenna and stick it up. If it gives me more range I keep it. Otherwise i bin it.

              To this end I am considering buying a DPD Productions ADS-B Vertical Outdoor Base Antenna http://www.dpdproductions.com/page_vhf_air.html#adsbout This claims 9dBi gain so it is probably better than anything I can build. Once this is installed (I cannot have an external antenna where I live) I can see if I can build one that's better.
              T-KCLT3 - Raspberry Pi3 Jessie, 8 element collinear indoor antenna

              Comment


              • @rederikus
                Try these easy things to improve reception (if not yet tried)
                1. IMPROVE WHIP (Click Here)
                  1. Place the whip antenna (which came with DVB-T USB Stick) on a large food can or metallic plate to provide a ground plane. The tin can/plate has an added advantage that the magnetic base of whip clings to it, preventing whip from falling and keeps it upright.
                  2. Cut whip to 52mm (removable part)

                2. MAKE A CANTENNA (Click Here)

                3. MAKE A HANDY SPIDER (Click Here)

                Comment


                • Originally posted by rederikus View Post
                  @adsb567 [B]

                  To this end I am considering buying a DPD Productions ADS-B Vertical Outdoor Base Antenna http://www.dpdproductions.com/page_vhf_air.html#adsbout This claims 9dBi gain so it is probably better than anything I can build. Once this is installed (I cannot have an external antenna where I live) I can see if I can build one that's better.
                  Don't forget that these and similar antenna require a large area of free space around them, at least 3 feet (1 meter) otherwise their resonant frequency will be shifted significantly and the reception will be seriously compromised.
                  These are far better suited to exterior mounting, if this is not possible then an empty attic is sometimes acceptable, any nearby walls or metal structures will not only attenuate the signal but could also badly detune the antenna.
                  FR24 F-EGLF1, Blitzortung station 878, OGN Aldersht2, PilotAware PWAldersht, PlanePlotter M7.

                  Comment


                  • @F-EGLF1, Good advice. Antenna calculations are done assuming free air and if the installation does not reflect this then performance usually suffers. I would love to site my antenna outside but it is just not possible due to the local housing association regulations. When I lived in Reading, UK we had a nice empty loft (known as an attic over here). However in the US the attic is used to house the HVAC (Heating Ventilation Air Conditioning) unit. This is a combined ducted air furnace and a huge air-conditioner for the whole house. This device is mostly made of metal. Additionally there are air ducts that have wire wound interiors to move the air around. It is a challenge to achieve 1 metre of clear air around the antenna.

                    @abcd567, I built a spider 20161231_115359.jpg It did not work very well. I also built a cantenna using the large can of tomatos design. I found that the ground wire of the coax was not connected to the magnetic base of the whip antenna. Once I fixed this performance improved but was not a good as I wanted. My 8 element CoCo seems much better. I now believe that I am never going to get much better performance than I have today. I base this on a HeyWhatsThat panorama HeyWhatThat.jpg I'm near the bottom of a hole here. What HeyWhatsThat shows is pretty much what dump1090 shows dump1090.jpg. This combined with my Polar Plot stats.JPG (8 element CoCo) all seem to show that I am getting about as much range as I can hope for. Almost wherever I look, There are hills in the way AzEl.JPG

                    Obviously I shall try and improve things but based upon my research, I am not hopeful. My station T-KCLT3 is currently number 2 in Charlotte according to FLightRadar24's coverage. I do not expect this to last as there is F-KCLT2 station who can see far further than me.
                    Last edited by rederikus; 2017-02-20, 20:57.
                    T-KCLT3 - Raspberry Pi3 Jessie, 8 element collinear indoor antenna

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                    • I finally finished my NEMA approved fire proof steel box to enclose both RPi3s and their power supplies, network switch and a 12volt power supply for the LNA once these emerge from the postal cloud.
                      20170220_160837.jpg20170220_160853.jpg

                      The two RPis (T-KCLT3 & T-KCLT19) are stacked so you need to look closely to see the two FlightAware ProSticks.

                      WHilst this maneuver eliminated a 21 ft RG6 downfeed, it made virtually no difference to my range. However I am now in the position where I can experiment with antennas easily using short cables and with LNA power easily to hand. I just hope that the 100 degree F + temperature in my attic doesn't cook the electronics. Time will tell.
                      Last edited by rederikus; 2017-02-20, 21:53.
                      T-KCLT3 - Raspberry Pi3 Jessie, 8 element collinear indoor antenna

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                      • @arederikus:
                        You are already using a Pro Stick which has an integral 19 dB LNA. Adding another LNA may overload the receiver and worsen its performance.

                        Please see Pro Stick's Specs on this page:
                        Last edited by abcd567; 2017-02-20, 23:17.

                        Comment


                        • Thank you for pointing this out.

                          It may and it may not. I read the specs and ordered the LNA anyway. I kind of agree with you. It may well overload the front end of the ProStick's amp. I will try it out and see what happens. You already told me that the built in LAN does not have adjustable gain and it is the receiver that has that function. It is therefore highly likely that I shall feed more level into the ProStick that it can handle. I need to plumb these limits to find just how far I can go.

                          I also intend trying out a longer Franklin antenna. The construction technique I have (grinding the joined ends to a D shape and soldering) allows me to easily make a Franklin with an extra two elements. I wish to see what that does for me. I'll also need at least one more LNA for this test.

                          I may get nowhere with this given the problems of my location but, ya gotta try.
                          T-KCLT3 - Raspberry Pi3 Jessie, 8 element collinear indoor antenna

                          Comment


                          • Originally posted by rederikus View Post
                            I finally finished my NEMA approved fire proof steel box to enclose both RPi3s and their power supplies, network switch and a 12volt power supply for the LNA once these emerge from the postal cloud.
                            Nice box. Some comments;

                            - I would remove the switch, and just use a pair of Cat cable splitters to get 2 separate LAN connections over your existing cable. Many of these switches have problems with interference, and it generates heat that you could do without.

                            - If cables now can be kept short, it seems unlikely that you will benefit from an LNA, unless it is very low-noise. Try a good filter instead!

                            Good luck!

                            /M
                            F-ESDF1, F-ESGG1, F-ESGP1, F-ESNK1, F-ESNV2, F-ESNV3 F-ESSL4, F-ESNZ7, F-LFMN3
                            T-ESNL1, T-ESNL2, T-ESGR15
                            P-ESIA, P-ESIB, P-ESGF, P-ESSN, P-EFMA
                            mrmac (a) fastest.cc

                            Comment


                            • The switch was lying in one of my spares boxes. I don't remember where it came from. It had two redeeming factors in its choice. It was there and it was free. I agree with you that the extra heat is not needed. I would not mind getting rid of the switch entirely. I may ultimately drop back to one station once I have finished playing with antennas and got the absolute maximum range that I can squeeze out of all this. I am hoping to do this before the awful heat that descends upon Charlotte NC at the end of June and goes through until mid-September.

                              I have a Flight Aware filter ready. The last time I used it I saw a drop in range, hence the LNA. Blindly amping signals is not a good idea. It amps the noise and other unwanted signals too. I shall try a number of configurations and gains using the filter, amp, a 10dB filter and of course the Flight Aware USB stick. I also have a Jetvision USB stick so I can play with that too.

                              What is nice about the setup I now have is that all the connectors are contained within one meter for both receivers and antennas. All connectors are SMA (no RP-SMAs) and I have WiFi for my laptop or tablet. It really now is just plug and play.
                              T-KCLT3 - Raspberry Pi3 Jessie, 8 element collinear indoor antenna

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                              • My LNA + filter http://www.ebay.com/itm/1090MHz-ADSB-Filter-LNA-band-pass-filter-with-SMA-connectors-Mode-S-SAW-aviation-/122360480859?hash=item1c7d40c45b:g~AAAOSw44BYZl4~ arrived this morning so I tested it with my Franklin antenna. The range improved quite a bit but not as much as I had hoped.

                                I then decided to put an extra element on the end of the Franklin. 20170224_135528.jpg20170224_135545.jpg Once more range increased but it is still not to the limit defined by the HeyWhatsThat 30,000 ft Up In The Air ring.

                                I think I am done building antennas. I shall wait a couple of weeks and then buy a DPD Productions model.
                                Last edited by rederikus; 2017-02-24, 20:15.
                                T-KCLT3 - Raspberry Pi3 Jessie, 8 element collinear indoor antenna

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